Optical element, mold for molding optical element and optical pickup device

1. A diffraction grating provided with a binary blaze grating comprising: a height of a step difference of the binary blaze grating is greater than or equal to 1 μm and, in addition, is set to be (λ 2 +α)/(n−1), where “n” is a refractive index of the diffraction grating and “α” is between 2 and 8 nm; and a number of levels of the binary blaze grating is “5x”, where “x” is a positive integer, wherein the binary blaze grating diffracts only a light beam with a wavelength of λ 1 between light beams with wavelengths of λ 1 and λ 2 .

2. The diffraction grating according to claim 1 , wherein the binary blaze grating is formed by a cutting process.

3. The diffraction grating according to claim 1 , wherein the number of levels of the binary blaze grating is 5 or 10.

4. A mold for forming a diffraction grating provided with a binary blaze grating comprising: a grating form face for forming the binary blaze grating, the grating form face is formed by a mechanical processing; a height of step differences of the grating form face is greater than or equal to 1 μm and, in addition, is set to be (λ 2 +α)/(n−1), where “n” is a refractive index of the diffraction grating and “α” is between 2 and 8 nm; and a number of the step difference of the grating form face is a number corresponding to a number of levels of the binary blaze grating that is a multiple of 5.

5. The mold according to claim 4 , wherein the grating form face is formed by a cutting process.

6. The mold for molding according to claim 4 , wherein the number of the step differences of the grating form face is the number corresponding to 5 or 10 levels of the binary blaze grating.

7. An optical element provided with a binary blaze grating on a surface of the optical element comprising: a grating formed face which is formed with the binary blaze grating, the grating form face is formed by a mechanical processing; a number of step differences of the grating formed face corresponds to a number of levels of the binary blaze grating, that is greater than or equal to 5; and a height of the step difference is greater than or equal to 1 μm and is set to be (λ 2 +α)/(n−1), where “n” is a refractive index of the diffraction grating “α” is between 2 and 8 nm.

8. The optical element according to claim 7 , wherein the optical element is designed to obtain optimal diffraction efficiency with respect to the laser beam with a wavelength having 2 nm to 8 nm longer than the emission wavelength of the laser light source at an ordinary temperature.

9. The mold according to claim 8 , wherein the optical element is designed to obtain optimal diffraction efficiency in such a manner that diffraction efficiency of a zero-order light beam of one of a first and a second laser beams whose wavelengths are different from each other and diffraction efficiency of a first-order light beam of the other respectively become maximum.

10. The mold according to claim 9 , wherein the wavelength of the first laser beam is 650 nm and the wavelength of the second laser beam is 780 nm.

11. A diffraction grating provided with a binary blaze grating comprising: a mold provided with a grating form face for forming the binary blaze grating, the grating form face is formed by a mechanical processing; a height of step differences of the grating form face is greater than or equal to 1 μm and, in addition, is set to be (λ 2 +α)/(n−1), where “n” is a refractive index of the diffraction grating and “α” between 2 and 8 nm; and a number of step differences of the grating form face is a number corresponding to a number of levels of the binary blaze grating that is a multiple of 5.

12. An optical pickup device provided with a light source for DVD emitting a light beam with a wavelength of λ 1 , a light source for CD emitting a light beam with a wavelength of λ 2 , a photo detector for receiving each of return light beams which are emitted from the light sources and reflected by an optical recording media, and an optical axis adjusting element for adjusting an optical axis of one of the return light beams in such a manner that each of the return light beams is received by the photo detector, wherein the optical axis adjusting element is a diffraction grating provided with a binary blaze grating for diffracting only the light beam with the wavelength of λ 1 among the light beams of the wavelength λ 1 and the wavelength λ 2 , the binary blaze grating is formed by mechanical processing, a height of step differences of the binary blaze grating is 1 μm or more and (λ 2 +α)/(n−1); where “n” is a refractive index of the diffraction grating and “α”=2 to 8 nm; and the number of levels of the binary blaze grating is “5x”, where “x” is a positive integer.

13. An optical pickup device; comprising: a laser light source for a DVD emitting a laser beam with a wavelength of λ 1 ; a laser light source for a CD emitting a laser beam with a wavelength of λ 2 ; a photo detector that receives return light beams which are emitted from the laser light sources and reflected by an optical recording media; and an optical axis adjusting element that adjusts an optical axis of one of the return light beams in such a manner that each of the return light beams is received by the photo detector, wherein the optical axis adjusting element is an optical element provided with a binary blaze grating and a height step differences of the binary blaze grating is (λ 2 +α)/(n−1), where “n” is a refractive index of the optical element and “α” is between 2 to 8 nm.